Communication apparatuses for handling apparatus terminated or originated communication requests with increased communication capability and methods thereof

ABSTRACT

A communication apparatus has at least one radio transceiver module, a first subscriber identity card with a first address and a second subscriber identity card with a second address. The first subscriber identity card camps on a first cell belonging to a first wireless network via the radio transceiver module, and the second subscriber identity card camps on a second cell belonging to a second wireless network via the radio transceiver module. The communication apparatus includes first processor logic coupled to the radio transceiver module, the first subscriber identity card and the second subscriber identity card, receiving a communication request requesting for establishing wireless communication between the first subscriber identity card and a peer communication entity.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a Continuation of pending U.S. patent applicationSer. No. 12/416,272, filed on Apr. 1, 2009 and entitled “Communicationapparatuses for handling apparatus terminated or originatedcommunication requests with increased communication capability andmethods thereof”, the entirety of which is incorporated by referenceherein.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention relates to a method for handling an apparatus terminatedor originated communication request in a communication apparatus, andmore particularly to a method for handling an apparatus terminated ororiginated communication request in the communication apparatus withincreased communication capability.

2. Description of the Related Art

The term “wireless”, normally refers to an electrical or electronicoperation, which is accomplished without the use of a “hard wired”connection. “Wireless communication”, is the transfer of informationover a distance without the use of electrical conductors or wires. Thedistances involved may be short (a few meters for television remotecontrols) or very long (thousands or even millions of kilometers forradio communications). The best known example of wireless communicationis the cellular telephone. Cellular telephones use radio waves to enablean operator to make phone calls to another party, from many locationsworld-wide. They can be used anywhere, as long as there is a cellulartelephone site to house equipment that can transmit and receive signals,which are processed to transfer both voice and data to and from thecellular telephones.

There are various well-developed and -defined cellular communicationtechnologies. For example, the Global System for Mobile communications(GSM) is a well-defined and commonly adopted communications system,which uses time division multiple access (TDMA) technology, which is amultiplex access scheme for digital radio, to send voice, data, andsignalling data (such as a dialed telephone number) between mobilephones and cell sites. The CDMA2000 is a hybrid mobile communications2.5G/3G (generation) technology standard, that uses code divisionmultiple access (CDMA) technology. The UMTS (Universal MobileTelecommunications System) is a 3G mobile communications system, whichprovides an enhanced range of multimedia services over the 2G GSMsystem. The Wireless Fidelity (Wi-Fi) is a technology defined by the802.11b engineering standard and can be used for home networks, mobilephones, video games, to provide a high-frequency wireless local areanetwork.

With the advanced development of wireless communication technologies, itis now possible to provide multiple wireless communication servicesusing different or the same communication technologies in onecommunication apparatus. In order to increase the communicationcapability, methods for handling an apparatus terminated communicationrequest in the communication apparatus with increased communicationcapability are highly required.

BRIEF SUMMARY OF THE INVENTION

Communication apparatuses are provided. An embodiment of a communicationapparatus comprises a radio transceiver module, a first subscriberidentity card, a second subscriber identity card and a processor. Thefirst subscriber identity card with a first address camps on a firstcell belonging to a first wireless network via the radio transceivermodule. The second subscriber identity card with a second address campson a second cell belonging to a second wireless network via the radiotransceiver module. The processor is coupled to the radio transceivermodule, the first subscriber identity card and the second subscriberidentity card. After receiving a communication request requesting forestablishing wireless communication between the first subscriberidentity card and a peer communication entity, the processor activates aservice instructing the second wireless network to transfer a futureapparatus terminated communication request of the second subscriberidentity card to the first subscriber identity card via the first cell

Another embodiment of a communication apparatus comprises at least oneradio transceiver module, a first subscriber identity card, a secondsubscriber identity card and a processor. The first subscriber identitycard with a first address camps on a first cell belonging to a firstwireless network via the radio transceiver module. The second subscriberidentity card with a second address camps on a second cell belonging toa second wireless network via the radio transceiver module. Theprocessor is coupled to the radio transceiver module, the firstsubscriber identity card and the second subscriber identity card,monitors a first signal quality of the first wireless network for thefirst subscriber identity card and a second signal quality of the secondwireless network for the second subscriber identity card, and activatesa service instructing the second wireless network to transfer a futureapparatus terminated communication request of the corresponding secondsubscriber identity card to the first subscriber identity card via thefirst cell when determining that the second subscriber identity card isgoing to out of service according to the second signal quality.

Another embodiment of a communication apparatus comprises a first radiotransceiver module, a second radio transceiver module, a firstsubscriber identity card, a second subscriber identity card a batteryand a processor. The first subscriber identity card with a first addresscamps on a first cell belonging to a first wireless network via thefirst radio transceiver module. The second subscriber identity card witha second address camps on a second cell belonging to a second wirelessnetwork via the second radio transceiver module. The battery providespower to the first radio transceiver module and the second radiotransceiver module. The processor is coupled to the battery, the firstradio transceiver module, the second radio transceiver module, the firstsubscriber identity card and the second subscriber identity card,monitors an amount of remaining power of the battery, activates aservice instructing the second wireless networks to transfer a futureapparatus terminated communication request of the second subscriberidentity card to the first subscriber identity card via the first celland turns off the second radio transceiver module after determining apower low condition according to the amount of remaining power.

Another embodiment of a communication apparatus comprises a radiotransceiver module, a first subscriber identity card, a secondsubscriber identity card, a battery and a processor. The firstsubscriber identity card with a first address camps on a first cellbelonging to a first wireless network via the radio transceiver module.The second subscriber identity card with a second address camps on asecond cell belonging to a second wireless network via the radiotransceiver module. The battery provides power to the radio transceivermodule. The processor is coupled to the battery, the radio transceivermodule, the first subscriber identity card and the second subscriberidentity card, monitors an amount of remaining power of the battery, andactivating a service instructing the second wireless networks totransfer a future apparatus terminated communication request of thesecond subscriber identity card to the first subscriber identity cardvia the first cell and instructs the radio transceiver module not tolisten to the second cell after determining a power low conditionaccording to the amount of remaining power.

A detailed description is given in the following embodiments withreference to the accompanying drawings.

BRIEF DESCRIPTION OF DRAWINGS

The invention can be more fully understood by reading the subsequentdetailed description and examples with references made to theaccompanying drawings, wherein:

FIG. 1 shows a communication apparatus according to an embodiment of theinvention;

FIG. 2 shows a communication apparatus according to another embodimentof the invention;

FIG. 3 shows a communication apparatus according to another embodimentof the invention;

FIG. 4 shows an exemplary network topology according to an embodiment ofthe invention;

FIG. 5 shows logical channel assignments and signaling procedures of anapparatus originated communication request in a GSM system;

FIG. 6 shows logical channel assignments and signaling procedures of anapparatus terminated communication request in a GSM system;

FIG. 7 shows a flow chart of the method for increasing communicationcapability of the communication apparatus according to a firstembodiment of the invention;

FIG. 8 shows another flow chart of the method for increasingcommunication capability of the communication apparatus according to thefirst embodiment of the invention;

FIG. 9 shows a flow chart of the method for increasing communicationcapability of the communication apparatus according to a secondembodiment of the invention;

FIG. 10 shows a flow chart of the method for increasing communicationcapability of the communication apparatus according to a third or fourthembodiment of the invention;

FIG. 11 shows the CFU registration procedure initialized by thecommunication apparatus according to an embodiment of the invention;

FIG. 12 shows an explicit CFU activation procedure initialized by thecommunication apparatus according to an embodiment of the invention;

FIG. 13 shows an erasing registered CFU service procedure initialized bythe communication apparatus according to an embodiment of the invention;and

FIG. 14 shows an explicit CFU deactivation procedure initialized by thecommunication apparatus according to an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

The following description is of the best-contemplated mode of carryingout the invention. This description is made for the purpose ofillustrating the general principles of the invention and should not betaken in a limiting sense. The scope of the invention is best determinedby reference to the appended claims.

FIG. 1 shows a communication apparatus according to an embodiment of theinvention. As shown in FIG. 1, communication apparatus 100A comprisessubscriber identity cards 101 and 102, a baseband module 103, a radiotransceiver module 104, and a battery 107, wherein the baseband module103 is coupled to the subscriber identity cards 101 and 102, and theradio transceiver module 104. The battery 107 is configured to providepower to the baseband module 103 and the radio transceiver module 104.The radio transceiver module 104 receives wireless radio frequencysignals, converts the received signals to baseband signals to beprocessed by the baseband module 103, or receives baseband signals fromthe baseband module 103 and converts the received signals to wirelessradio frequency signals to be transmitted to a peer device. The radiotransceiver module 104 may comprise a plurality of hardware devices toperform radio frequency conversion. For example, the radio transceivermodule 104 may comprise a mixer to multiply the baseband signals with acarrier oscillated in the radio frequency of the wireless communicationsystem, wherein the radio frequency may be, for example, 900 MHz or 1800MHz for a global system for mobile communication (GSM), or 1900 MHz fora Universal Mobile Telecommunications System (UMTS). The baseband module103 further converts the baseband signals to a plurality of digitalsignals, and processes the digital signals, and vice versa. The basebandmodule 103 may also comprise a plurality of hardware devices to performbaseband signal processing. The baseband signal processing may compriseanalog to digital conversion (ADC)/digital to analog conversion (DAC),gain adjustments, modulation/demodulation, encoding/decoding, and so on.The baseband module 103 further comprises a memory device 106 and aprocessor 105 for controlling the operations of the baseband module 103,the radio transceiver module 104, and the subscriber identity cards 101and 102 plugged into two sockets, respectively. The processor 105 readsdata from the plugged in subscriber identity cards 101 and 102 andwrites data to the plugged in subscriber identity cards 101 and 102. Itis to be noted that the memory device 106 may also be configured outsideof the baseband module 103 and the invention should not be limitedthereto.

According to another embodiment of the invention, the communicationapparatus comprising more than one subscriber identity card, may alsocomprise more than one baseband module and radio transceiver module,respectively, for each subscriber identity card. FIG. 2 and FIG. 3respectively show communication apparatuses according to anotherembodiments of the invention. As shown in FIG. 2 and FIG. 3,communication apparatus 100B comprises subscriber identity cards 101 and102, baseband modules 103A and 103B, and radio transceiver modules 104Aand 104B, wherein the baseband module 103A is coupled to the subscriberidentity card 101 and the radio transceiver module 104A, and thebaseband module 103B is coupled to the subscriber identity card 102 andthe radio transceiver module 104B. The operations of the basebandmodules 103A and 103B are similar with that of the baseband module 103and are not described here for brevity. Similarly, the operations of theradio transceiver module 104A and 104B are similar with that of theradio transceiver module 104 and are not described here for brevity. Itis noted that in FIG. 2, the baseband module 103A comprises a memorydevice 106A and a processor 105A for controlling the operations of thesubscriber identity card 101, the baseband module 103A and the radiotransceiver module 104A, and the baseband module 103B also comprises amemory device 106B and a processor 105B for controlling the operationsof the subscriber identity card 102, the baseband module 103B and theradio transceiver module 104B. The processors 105A and 105B may becoupled and communicate with each other. The data stored in memorydevices 106A and 106B may be shared and accessed by both of theprocessors 105A and 105B. For example, one of the processor may be amaster processor and the other one may be a slave processor to cooperatewith the master processor. As shown in FIG. 3, according to stillanother embodiment of the invention, the communication apparatus 100Cmay comprise one memory device 106C and one processor 105C forcontrolling the operations of the subscriber identity cards 101 and 102,the baseband modules 103A and 103B, and the radio transceiver modules104A and 104B. The operations of the processor 105C are similar withthat of the processor 105 and are not described here for brevity. Thedescribed processors 105, 105A, 105B and 105C may be general-purposeprocessors and when executing program code perform the mentioned controloperations. The described memory 106, 106A, 106B and 106C may compriseat least one of read only memory (ROM), random access memory (RAM), NORflash and NAND flash for storing program code and data.

FIG. 4 shows an exemplary network topology according to an embodiment ofthe invention. The communication apparatus 100 shown in FIG. 4, may bethe communication apparatuses 100A, 100B and 100C previously illustratedin FIG. 1 to FIG. 3. Thus, from hereinafter, the communication apparatus100 will be used to represent all like previously described apparatusesfor brevity. The communication apparatus 100, equipped with more thanone subscriber identity card, may simultaneously access more than onenetwork 203 and 204 of the same or different communication technologies,where the network 203 or 204 may be the GSM, WCDMA, Wi-Fi, CDMA2000 orTime Division-Synchronous Code Division Multiple Access (TD-SCDMA)network, or Internet, or the like, after camping on or associating withthe cells managed by access stations 201 and 202, where the accessstation 201 or 202 may be a base station, a node-B, an access pointcompatible with 802.1a, 802.1b or 802.1g. The communication apparatus100 may issue an apparatus originated communication request, alsoreferred to as mobile originated (MO) call request, such as a voicecall, a data call, a video call, or a voice over Internet Protocol(VOIP) call, to a called party (i.e. a destination peer communicationentity with a destination address of another wired or wirelesscommunication apparatus) through at least one of the networks 203 and204 with corresponding intermediary apparatuses 205 and 206 (forexample, the GSM network with a Mobile Switching Center (MSC), theWCDMA/TD-SCDMA network with a Radio Network Controller (RNC), or theInternet with a Session Initiation Protocol (SIP) server), or throughthe Public Switched Telephone Network (PSTN) 207 or any combinationsthereof, by using any of the equipped subscriber identity cards. Theaddress may be, as an example, a series of predetermined numbersdirected to a specific subscriber identity card, such as an InternetProtocol (IP) address for a VOIP call or a phone number for a circuitswitch call, or others. Moreover, the communication apparatus 100 mayreceive an apparatus terminated communication request, also referred toas mobile terminated (MT) call request, such as an incoming voice call,an incoming data call, an incoming video call, or an incoming voice overInternet Protocol (VOIP) call with any of the subscriber identity cardsfrom a calling party (i.e. an origination peer communication entity withan origination address of another wired or wireless communicationapparatus). The apparatus terminated communication request is acommunication request initiated from a peer communication entity torequest to establish wireless communication with a subscriber identitycard of the communication apparatus 100. It is to be understood thatthere may be one or more gateways positioned between heterogeneous typesof networks.

According to an embodiment of the invention, the subscriber identitycards 101 and 102 may relate to one type of wireless communicationsystem. For example, the subscriber identity card 101 or 102 may be thesubscriber identity module (SIM) card corresponding to the GSM system,or the universal subscriber identity module (USIM) card corresponding tothe UMTS system, or the removable user identity module (RUIM) card orthe CDMA Subscriber Identity Module (CSIM) card corresponding to theCDMA2000 communication system, or others. An SIM card typically containsuser account information, an international mobile subscriber identity(IMSI) and a set of SIM application toolkit (SAT) commands and providesstorage space for phone book contacts. The processor, such as processor105, 105A, 105B or 105C, of the baseband module, such as baseband module103, 103A or 103B, may interact with a micro control unit (MCU) of theSIM card to fetch data or SAT commands from the plugged in SIM card. Thecommunication apparatus 100 is immediately programmed after beingplugged into the SIM card. The SIM card may also be programmed todisplay custom menus for personalized services. The communicationapparatus 100 may be plugged into an USIM card for UMTS (also called 3G)telephony communication. The USIM card stores user account information,IMSI, authentication information and a set of USIM Application Toolkit(USAT) commands and provides storage space for text messages and phonebook contacts. The baseband processor 105, 105A, 105B or 105C mayinteract with an MCU of the USIM card to fetch data or SAT commands fromthe plugged in USIM card. The phone book on the USIM card is moreenhanced than that on the SIM card. For authentication purposes, theUSIM card may store a long-term preshared secret key K, which is sharedwith the Authentication Center (AuC) in the network. The USIM MCU mayverify a sequence number, that may be within a range, by using a windowmechanism to avoid replay attacks, and generates the session keys CK andIK to be used in the confidentiality and integrity algorithms of theKASUMI (also termed A5/3) block cipher in the UMTS system. Thecommunication apparatus 100 is immediately programmed after beingplugged into the USIM card. The IMSI is a unique number associated witha global system for mobile communication (GSM) or a universal mobiletelecommunications system (UMTS) network user. The IMSI may be sent bythe communication apparatus 100 to the GSM or UMTS network to acquireother details of the mobile user in the Home Location Register (HLR) or,as locally copied, in the Visitor Location Register (VLR). An IMSI istypically 15 digits long, but can be shorter. The first 3 digits are theMobile Country Code (MCC), and the following digits, are the MobileNetwork Code (MNC), which are either 2 digits (European standard) or 3digits (North American standard). The remaining digits are the mobilesubscriber identification number (MSIN) for the GSM or UMTS networkuser.

FIG. 5 shows exemplary logical channel assignments and signalingprocedures of an apparatus originated communication request in GSM. Inthe GSM, a Call Control (CC), comprises procedures to establish,control, and terminate a communication service, and is an element ofConnection Management (CM). When a user of the communication apparatus100 plans to originate a communication service, such as a voice callservice, the processor (105, 105A, 105C or 105C) receives acorresponding communication request from an upper layer (for example,from a man-machine interface (MMI) layer after the user operations).Then, the CC entity requests a Mobility Management (MM) connection fromthe local MM entity (Phase 5-1) via a Random Access Channel (RACH) torequest a communication channel for the communication request. For astandard call, the communication apparatus 100 may need to register withthe wireless network, whereas for an emergency call, registration isonly optionally required. That is, an emergency call may be establishedon an unenciphered Radio Resource (RR) connection from a communicationapparatus 100 that has not registered with the wireless network. Thebase station system (BSS) in the wireless network may assign aStand-alone Dedicated Control Channel (SDCCH) or a Traffic Channel (TCH)via an Immediate Assignment carried in the Access Grant Channel (AGCH).After the process of sending out a CM-service request (Phase 5-2),authentication (Phase 5-3) and ciphering (Phase 5-4) with the MSC viathe SDDCH is completed, an MM connection is established. Aftersuccessful establishment of the MM connection and activation of the userdata encryption, the service-requesting CC entity is informed. Thus, thesignals on the connection desire to connect to the CC entity in theMobile Switching Center MSC (SETUP). The MSC may respond to theconnection request in several ways. The MSC may indicate with a messageCall Proceeding (Phase 5-5) that the call request has been accepted andthat all the necessary information for the setup of the call isavailable. Otherwise, the call request may be declined with a messageRelease Complete. Next, the communication apparatus 100 receives theAlert message (Phase 5-6) when the MSC is trying to connect to thecalled party. As soon as the called party receives the Alert message andaccepts the call, the communication apparatus 100 receives an AssignCommand and a dedicated channel will be assigned after the communicationapparatus 100 responds to an Assignment Complete message via a FastAssociated Control Channel (FACCH) (Phase 5-7). The communicationapparatus 100 next responds with a Connect Acknowledge message afterreceiving the Connect message from the MSC (Phase 5-8), and the trafficchannel, successfully established on the TCH and the communicationapparatus 100, may now begin to communicate with the called party. It isto be noted that the CC procedure of the WCDMA or TD-SCDMA system issimilar to that of GSM system and is not further described for brevity.

FIG. 6 shows exemplary logical channel assignments and signalingprocedures of an apparatus terminated communication request in a GSMsystem. When the communication apparatus 100 is being paged by a callingparty, which means that the user of a peer wired or wirelesscommunication apparatus is planning to originate a communication servicewith the communication apparatus 100, the Radio Resource (RR) entityfirst receives a Paging Request from the BSS/MSC via a Paging Channel(PCH) (Phase 6-1). The CC entity next requests a Mobility Management(MM) connection from the local MM entity via the Random Access Channel(RACH). The BSS in the wireless network may assign a Stand-aloneDedicated Control Channel (SDCCH) or a Traffic Channel (TCH) via anImmediate Assignment carried in the Access Grant Channel (AGCH), and thecommunication apparatus 100 responds with a Paging Response via theSDCCH to the BSS (Phase 6-2). After the process of authentication (Phase6-3) and ciphering (Phase 6-4) with the MSC via the SDCCH is completed,an MM connection is established. After successful establishment of theMM connection and activation of the user data encryption, the CC entityis informed by a Setup message from the MSC, and responds with a CallConfirmed message to the MSC (Phase 6-5). The communication apparatus100 next receives an Assignment Command which indicates the allowance ofassigning a dedicated channel (Phase 6-6), and the dedicated channelwill be assigned after the communication apparatus 100 responds to anAssign Complete message, an Alert message, and a Connect message via aFast Associated Control Channel (FACCH). As soon as the communicationapparatus 100 receives the Connect Acknowledge message from the MSC(Phase 6-7), the dedicated channel is successfully established on theTCH and the communication apparatus 100, may now begin to communicatewith the calling party. It is to be noted that the CC procedure of theWCDMA or TD-SCDMA communication system is similar to that of the GSMcommunication system and is not further described for brevity.

According to embodiments of the invention, methods for handling anapparatus terminated or originated communication request (may alsocalled mobile terminated or originated call request; MT or MO callrequest) with increased communication capability in a communicationapparatus, such as 100A, 100B, 100C or 100 previously described, will bedescribed in the following. In the following disclosure, the subscriberidentity card 101 is with an address, hereinafter called CN_(A) forbrevity, and camps on a cell, hereinafter called Cell_(A) for brevity,belonging to a wireless network, hereinafter called NW_(A) for brevity,via the radio transceiver module 104 or 104A. Similarly, the subscriberidentity card 102 is with an address, hereinafter called CN_(B) forbrevity, and camps on a cell, hereinafter called Cell_(B) for brevity,belonging to a wireless network, hereinafter called NW_(B) for brevity,via the radio transceiver module 104 or 104B. It is noted that cellsCell_(A) and Cell_(B) may be the same or different cells belonging tothe same or different wireless networks NW_(A) and NW_(B) of the same ordifferent communication technologies, and the invention should not belimited thereto.

According to a first embodiment of the invention, referring to thecommunication apparatus 100A shown in FIG. 1, equipped with only oneradio transceiver module 104 shared between two or more subscriberidentity cards. Note that, during a communication session for onesubscriber identity card, the transceiver module 104 is occupied by thesubscriber identity card, and the processor 105 is incapable oflistening to any communication request from a cell that anothersubscriber identity card camps on. In order to increase thecommunication capability of the communication apparatus 100A, whendetecting that a communication request of one subscriber identity card(for example, 101) has been received or triggered, the processor mayactivate a service instructing the wireless network corresponding toanother subscriber identity card (for example, 102) to transfer allsubsequently incoming communication request(s) of another subscriberidentity card (102) to the subscriber identity card (101), for example,MT call requests. The communication request may be an MT call requestand received from the cell that the subscriber identity card (101) campson, or may be an MO call request and triggered by an internalsoftware/hardware module corresponding to the subscriber identity card(101). As a result, the communication request originally to anothersubscriber identity card (102) will be transferred to the subscriberidentity card (101) and may be answered by a user.

FIG. 7 shows a flow chart of the method for increasing communicationcapability of the communication apparatus according to the firstembodiment of the invention. After the processor receives an apparatusoriginated communication request, initiated by an user, to request forestablishing a wireless communication with a peer communication entityvia one of the subscriber identity cards (for example, CN_(A)) (StepS701), the processor determines whether an automatic call managementmode has been activated (Step S702). The apparatus originatedcommunication request may be received, as an example, from an upperlayer when the user operates man-machine interface (MMI) of thecommunication apparatus 100A. The automatic call management mode may beactivated or deactivated in advance via the MMI. The MMI is the means bywhich users interact with the communication apparatus. The MMI maycontain screen menus, icons, keyboard shortcuts, command language,online help, physical buttons, key pad, touch screen, dials, levers orany combinations thereof. By using input devices of the MMI, users maymanually touch, press, click, grasp or move the input devices to operatethe communication apparatus. When the automatic call management mode hasbeen activated, the processor registers and/or activates a callforwarding related supplementary service by transmitting a correspondingtransfer request with the address of CN_(A) (as the forwardingdestination) to the cell Cell_(B) that the subscriber identity cardCN_(B) camps on, so as to request the wireless network NW_(B) to forwardall subsequently incoming apparatus terminated communication request(s)of the subscriber identity card CN_(B) to the subscriber identity cardCN_(A) (Step S703). Note that, while the subscriber identity card CN_(A)communicates with the peer communication entity, the user can beinformed that an apparatus terminated communication request originallyto the subscriber identity card CN_(B) is coming. Thereafter, the usermay decide to hold the active call and answer the newly coming apparatusterminated communication request. On the other hand, when the automaticcall management mode is not been activated, the processor may prompt theuser to decide whether to activate the call forwarding relatedsupplementary service with the MMI (Step S704). After receiving the userresponse (Step S705), the processor obtains the decision and determineswhether to activate the call forwarding related supplementary serviceaccordingly (Step S706). If so, the procedure goes to step S703,otherwise, to step S707. Finally, irrelevant to whether the callforwarding related supplementary service is activated or not, theprocessor continues to process the apparatus originated communicationrequest (Step S707). The signallings for processing the apparatusoriginated communication request may refer to the previously describedprocedures shown in FIG. 5.

According to an embodiment of the invention, the transfer request foractivating the call forwarding related supplementary service may betransmitted and acknowledged before transmitting a channel requestmessage (such as phase 5-1 of FIG. 5) to avoid the transfer requestfailure to be sent out because of the radio resource occupancy for theMO call to be made. The call forwarding related supplementary servicemay be some predetermined call forwarding services provided by operatorsof the wireless networks, for example, a call forwarding unconditional(CFU) service or a call forwarding on mobile subscriber not reachable(CFNRc) service. As an example, the transfer request of the CallForwarding Unconditional (CFU) supplementary service, with a destinationaddress of the subscriber identity card CN_(A), may instruct thewireless network NW_(B) to forward apparatus terminated communicationrequests of the subscriber identity card CN_(B) to the subscriberidentity card CN_(A) via Cell_(A) rather than to the subscriber identitycard CN_(B) via Cell_(B). The transfer request may contain at least asupplementary service registration and/or activation request to registerand/or activate the call forwarding related supplementary service. Inother words, during registration and activation of the CFU service, allapparatus terminated communication requests will not be delivered to thesubscriber identity card CN_(B) via Cell_(B), but forwarded to CN_(A)via Cell_(A). Moreover, during registration and activation of the CFUservice, a ForwardedToNumber which may be accompanied with aForwardedToSubAddress, and information regarding all apparatusterminated communication requests or that of a specific basic servicethat should be forwarded are to be registered in the network. The basicservices contain various circuit-switched services. For example, thebasic service may be a speech call service (TS_TELEPHONY=0x11), a datacall or short message service (TS_SHORTMESSAGEMT_PP=0x21 orTS_SHORTMESSAGEMO_PP=0x22), a facsimile call service(TS_FACSIMILEGROUP3ANDALTERSPEECH=0x61) or others.

FIG. 11 shows the CFU registration procedure initialized by thecommunication apparatus 100, 100A, 100B or 100C according to anembodiment of the invention. An CFU registration request transmitted bythe communication apparatus 100, 100A, 100B or 100C includes an SS-Code(Supplementary Service-Code) of the forwarding service to be registeredand possibly the BasicServiceCode in which the requested forwardingservice applies to. If the BasicServiceCode is not included, therequested forwarding service will apply to all basic services. If theregistration is successful, the CFU service is registered and activated.The network control center, such as an MSC, subsequently sends a returnresult indicating acceptance of the request including theForwardedToNumber and possibly the BasicService (group) Code to whichthe CFU service is registered. FIG. 12 shows an explicit CFU activationprocedure initialized by the communication apparatus 100, 100A, 100B or100C according to an embodiment of the invention. An explicit CFUactivation request transmitted by the communication apparatus 100, 100A,100B or 100C contains the supplementary service to be activated andpossibly the basic service group in which the requested supplementaryservice applies to. If a basic service group is not included in theactivation request the requested supplementary service will apply to allbasic services which a CFU forwarded-to number is registered.

According to the embodiment of the invention, referring back to FIG. 7,after the communication established in step S707 has been terminated,the activated call forwarding related supplementary service may befurther deactivated or erased. FIG. 13 shows a CFU service erasingprocedure initialized by the communication apparatus 100, 100A, 100B or100C according to an embodiment of the invention. When the erasure issuccessful, the CFU service will be erased (and automaticallydeactivated). The network control center then sends a return resultindicating acceptance of the request. The return result may include theBasicService (group) Code for which kind of basic service the CFU waserased and an SS-Status (Supplementary Service-Status) parameter. If thereturn request does not include a BasicServiceCode, it means that theerasure was successful for all basic services. FIG. 14 shows an explicitCFU deactivation procedure initialized by the communication apparatus100, 100A, 100B or 100C according to an embodiment of the invention. Anexplicit CFU deactivation request contains the supplementary service tobe deactivated and possibly the basic service group in which therequested supplementary service applies to. If a basic group is notincluded in the deactivation request, the request applies to all basicservices which the CFU is activated. Next, the communication apparatus100, 100A, 100B or 100C receives notification acceptance of the CFUdeactivation request.

FIG. 8 shows another flow chart of the method for increasingcommunication capability of the communication apparatus according to thefirst embodiment of the invention. After the processor receives anapparatus terminated communication request via Cell_(A) initiated from apeer communication entity to request for establishing wirelesscommunication with the subscriber identity card CN_(A) (Step S801), suchas the paging request shown in Phase 6-1 of FIG. 6, the processordetermines whether an automatic call management mode has been activated(Step S802). As previously described, the automatic call management modemay be activated or deactivated by the user in advance via the MMI. Whenthe automatic call management mode has been activated, the processorregisters and/or activates a call forwarding related supplementaryservice by transmitting a corresponding transfer request with theaddress of subscriber identity card CN_(A) (as the forwardingdestination) to the cell Cell_(B) that the subscriber identity cardCN_(B) camps on, so as to request the wireless network NW_(B) to forwardall subsequently incoming apparatus terminated communication request(s)of the subscriber identity card CN_(B) to the subscriber identity cardCN_(A) (Step S803). Note that, while the subscriber identity card CN_(A)communicates with the peer communication entity, the user can still beinformed that an apparatus terminated communication request originallyto the subscriber identity card CN_(B) is coming. Thereafter, the usermay decide to hold the active call and answer the newly coming apparatusterminated communication request. On the other hand, when the automaticcall management mode is not been activated, the processor may prompt theuser to decide whether to activate the call forwarding relatedsupplementary service with the MMI (Step S804). After receiving the userresponse (Step S805), the processor obtains the decision and determineswhether to activate the call forwarding related supplementary serviceaccordingly (Step S806). If so, the procedure goes to step S803,otherwise, to step S807. Finally, irrelevant to whether the callforwarding related supplementary service is activated or not, theprocessor continues to process the apparatus terminated communicationrequest (Step S807). The signallings for processing the apparatusterminated communication request may refer to the previously describedprocedures shown in FIG. 6.

According to an embodiment of the invention, the transfer request foractivating the call forwarding related supplementary service may betransmitted before transmitting a paging response message to thewireless network to acknowledge reception of the apparatus terminatedcommunication request (such as phase 6-2 of FIG. 6) to avoid thetransfer request failure to be sent out because of the radio resourceoccupancy for the MT call to be answered. The call forwarding relatedsupplementary service may be, as previously described, somepredetermined call forwarding services provided by operators of thewireless networks, for example, a call forwarding unconditional (CFU)service or a call forwarding on mobile subscriber not reachable (CFNRc)service. Detailed registration and activation descriptions may be madeto FIG. 11 and FIG. 12 with corresponding paragraphs. Thus, redundantdescriptions are omitted here for brevity. Additionally, according tothe embodiment of the invention, referring back to FIG. 8, after thecommunication established in step S807 has been terminated, theactivated call forwarding related supplementary service may be furtherdeactivated or erased. Detailed deactivation and erasure descriptionsmay be made to FIG. 13 and FIG. 14 with corresponding paragraphs. Thus,redundant descriptions are omitted here for brevity.

According to a second embodiment of the invention, referring to thecommunication apparatus 100A, 100B and 100C shown in FIG. 1, FIG. 2 andFIG. 3, in order to increase the communication capability, the processor(e.g. 105, 105A, 105B and/or 105C) monitors the signal qualities of thewireless networks NW_(A) and NW_(B) respectively for subscriber identitycards CN_(A) and CN_(B), and determines whether to activate a serviceenabling one of the wireless networks NW_(A) and NW_(B) to transfer acommunication request of the corresponding subscriber identity cardCN_(A) or CN_(B) to another subscriber identity card according to thesignal qualities.

FIG. 9 shows a flow chart of the method for increasing communicationcapability of the communication apparatus according to the secondembodiment of the invention. When the processor determines that one ofthe subscriber identity cards (for example, CN_(B)) is most likely goingto be out of the coverage range of the corresponding wireless network(for example, NW_(B)) according to the monitored signal quality (StepS901), the processor determines whether an automatic call managementmode has been activated (Step S902). As previously described, theautomatic call management mode may be activated or deactivated by theuser in advance via the MMI. When the automatic call management mode hasbeen activated, the processor registers and/or activates a callforwarding related supplementary service, by transmitting acorresponding transfer request with the address of subscriber identitycard CN_(A) (as the forwarding destination) to the cell Cell_(B) thatthe subscriber identity card CN_(B) camps on, so as to request thewireless network NW_(B) to forward all subsequently incoming apparatusterminated communication request(s) of the subscriber identity cardCN_(B) to the subscriber identity card CN_(A) (Step S903). Note that,even if the subscriber identity card CN_(B) is out of the coverage rangeof the wireless network NW_(B), the user can be informed that anapparatus terminated communication request originally to the subscriberidentity card CN_(B) is coming via the in-service subscriber identitycard CN_(A). Thereafter, the user may decide to answer the apparatusterminated communication request. On the other hand, when the automaticcall management mode is not been activated, the processor may prompt theuser to decide whether to activate the call forwarding relatedsupplementary service with the MMI (Step S904), for example, showing aprompt message “The call forwarding service has not been started yet,want to activate it?”, and two buttons captioned “YES” and “NO” on adisplay device thereof, and waiting for pressing or touching signalscorresponding to the displayed buttons. After receiving the userresponse (Step S905), the processor obtains the decision and determineswhether to activate the call forwarding related supplementary serviceaccordingly (Step S906). If so, the procedure goes to step S903.Otherwise, the procedure ends.

According to an embodiment of the invention, the processor determinesthat one subscriber identity card is going to be out of the coveragerange of the corresponding wireless network when the received signalquality by the subscriber identity card is worse than a predeterminedthreshold. According to another embodiment of the invention, theprocessor determines that the subscriber identity card is going to beout of the coverage range of the corresponding wireless network when thereceived signal quality by the subscriber identity card dropsdramatically during a predetermined short time interval. It is notedthat the processor may also be configured to determine the out of thecoverage condition according yet another criteria, for example, somecomputation or statistical results of the signal qualities. Thus, theinvention should not be limited thereto.

The call forwarding related supplementary service may be, as previouslydescribed, some predetermined call forwarding services provided byoperators of the wireless networks, for example, a call forwardingunconditional (CFU) service or a call forwarding on mobile subscribernot reachable (CFNRc) service. Detailed registration and activationdescriptions may be made to FIG. 11 and FIG. 12 with correspondingparagraphs. Thus, redundant descriptions are omitted here for brevity.According to the embodiment of the invention, when the processordetermines that the service of the wireless network NW_(B) has regained,for example, the signal quality is good enough according to anotherpredetermined threshold, the activated call forwarding relatedsupplementary service may be further deactivated or erased. Detaileddeactivation and erasure descriptions may be made to FIG. 13 and FIG. 14with corresponding paragraphs. Thus, redundant descriptions are omittedhere for brevity.

According to a third embodiment of the invention, referring to thecommunication apparatuses 100B and 100C shown in FIG. 2 and FIG. 3,equipped with more than one radio transceiver module each correspondingto one subscriber identity card. When detecting battery low, only oneradio transceiver module is kept working and the others will be turnedoff to reduce the power consumption and lengthen the life of a battery(e.g. 107 of FIG. 2 or 3). According to a fourth embodiment of theinvention, referring to the communication apparatus 100A shown in FIG.1, equipped with only one radio transceiver module. When detectingbattery low, the radio transceiver module will be directed not to listento one of the camped on cells, for example, Cell_(B), to reduce thepower consumption and lengthen the life of a battery (e.g. 107 of FIG. 2or 3). In order to maintain the communication capability in abovesituations, the processor (e.g. 105A, 105B and/or 105C) monitors anamount of remaining power of the battery 107, and may activate a serviceinstructing one of the wireless networks (for example, NW_(A) andNW_(B)) to transfer a communication request of one subscriber identitycard CN_(A) or CN_(B) corresponding to the radio transceiver module tobe turned off or corresponding to the cell not to be listened to anothersubscriber identity card when the amount of remaining power is lowerthan an acceptable level.

FIG. 10 shows a flow chart of the method for reducing power consumptionwithout degrading capability of incoming call receipt according to thethird or fourth embodiment of the invention. When the processordetermines that a battery is at a low condition (Step S1001), forexample, when the amount of remaining power of the battery 107 is lessthan a predetermined threshold, the processor determines whether anautomatic call management mode has been activated (Step S1002). Aspreviously described, the automatic call management mode may beactivated or deactivated by the user in advance via the MMI. When theautomatic call management mode has been activated, the processorregisters and/or activates a call forwarding related supplementaryservice for one of the subscriber identity cards corresponding to aradio transceiver module to be turned off (Step S1003). As an example,when a radio transceiver module corresponding to the subscriber identitycard CN_(B), such as 104B of FIG. 2 or 3, is determined to be turnedoff, the processor registers and/or activates a call forwarding relatedsupplementary service by transmitting a corresponding transfer requestwith the address of subscriber identity card CN_(A) (as the forwardingdestination) to the cell Cell_(B) that the subscriber identity cardCN_(B) camps on, so as to request the wireless network NW_(B) to forwardall subsequently incoming apparatus terminated communication request(s)of the subscriber identity card CN_(B) to the subscriber identity cardCN_(A). Note that, while the corresponding radio transceiver module isturned off as described in the third embodiment or the radio transceivermodule is directed not to listen to the corresponding cell as describedin the fourth embodiment, the user can still be informed that anapparatus terminated communication request originally to the subscriberidentity card CN_(B) is coming via the active radio transceiver module,such as 104A of FIG. 2 or 3, or the other listened cell. Thereafter, theuser can decide to answer the newly coming apparatus terminatedcommunication request. On the other hand, when the automatic callmanagement mode is not been activated, the processor may prompt the userto decide whether to activate the call forwarding related supplementaryservice with the MMI (Step S1004), for example, showing a prompt message“The call forwarding service has not been started yet, want to activateit?”, and two buttons captioned “YES” and “NO” on a display devicethereof, and waiting for pressing or touching signals corresponding tothe displayed buttons. After receiving the user response (Step S1005),the processor obtains the decision and determines whether to activatethe call forwarding related supplementary service accordingly (StepS1006). If so, the procedure goes to step S1003 to register and/oractivate a call forwarding related supplementary service, and then,proceeds to step S1007. Otherwise, the procedure proceeds to step S1007.Finally, the processor turns off the corresponding radio transceivermodule of the call forwarded subscriber identity card (e.g. CN_(B)) orinstructs the only radio transceiver module not to listen to the cellthat the call forwarded subscriber identity card camps on afterreceiving a response message indicating acceptance of the transferrequest from the wireless network (Step S1007).

According to the embodiments of the invention, the call forwardingrelated supplementary service may be, as previously described, somepredetermined call forwarding services provided by operators of thewireless networks, for example, a call forwarding unconditional (CFU)service or a call forwarding on mobile subscriber not reachable (CFNRc)service. Detailed registration and activation descriptions may be madeto FIG. 11 and FIG. 12 with corresponding paragraphs. Thus, redundantdescriptions are omitted here for brevity. According to the embodimentsof the invention, when the processor determines that the low batterycondition has subsided, for example, the battery is fully charged, theactivated call forwarding related supplementary service may be furtherdeactivated or erased. Detailed deactivation and erasure descriptionsmay be made to FIG. 13 and FIG. 14 with corresponding paragraphs. Thus,redundant descriptions are omitted here for brevity.

While the invention has been described by way of example and in terms ofpreferred embodiment, it is to be understood that the invention is notlimited thereto. Those who are skilled in this technology can still makevarious alterations and modifications without departing from the scopeand spirit of this invention. Therefore, the scope of the presentinvention shall be defined and protected by the following claims andtheir equivalents.

1. A communication apparatus having at least one radio transceivermodule, a first subscriber identity card with a first address and asecond subscriber identity card with a second address, wherein the firstsubscriber identity card camps on a first cell belonging to a firstwireless network via the radio transceiver module, and the secondsubscriber identity card camps on a second cell belonging to a secondwireless network via the radio transceiver module, the communicationapparatus comprises: first processor logic coupled to the radiotransceiver module, the first subscriber identity card and the secondsubscriber identity card, receiving a communication request requestingfor establishing wireless communication between the first subscriberidentity card and a peer communication entity; and second processorlogic coupled to the radio transceiver module, the first subscriberidentity card and the second subscriber identity card, activating aservice instructing the second wireless network to transfer a futureapparatus terminated communication request of the second subscriberidentity card to the first subscriber identity card via the first cell.2. The communication apparatus as claimed in claim 1, wherein the secondprocessor logic transmits a transfer request to the second cell torequest the second wireless network to transfer the future apparatusterminated communication request of the second subscriber identity cardto the first subscriber identity card via the first cell.
 3. Thecommunication apparatus as claimed in claim 2, wherein the communicationrequest is an apparatus originated communication request and the secondprocessor logic transmits the transfer request before a channel requestmessage requesting a communication channel for the apparatus originatedcommunication request is transmitted to the first wireless network. 4.The communication apparatus as claimed in claim 3, further comprisingthird processor logic deactivating or erasing the service after thewireless communication for the received apparatus originatedcommunication request is terminated.
 5. The communication apparatus asclaimed in claim 2, wherein the communication request is an apparatusterminated communication request, and the second processor logictransmits the transfer request before a paging response messageacknowledging the received communication request is transmitted to thefirst wireless network.
 6. The communication apparatus as claimed inclaim 5, further comprising third processor logic deactivating orerasing the service after the wireless communication for the receivedapparatus terminated communication request is terminated.
 7. Thecommunication apparatus as claimed in claim 1, wherein the secondprocessor logic transmits a transfer request to request to the secondwireless network to activate a call forwarding related supplementaryservice so as to forward the future apparatus terminated communicationrequest of the second subscriber identity card to the first subscriberidentity card.
 8. The communication apparatus as claimed in claim 7,wherein the call forwarding related supplementary service is one of acall forwarding unconditional (CFU) service and a call forwarding onmobile subscriber not reachable (CFNRc) service.
 9. A method forhandling apparatus terminated or originated communication requests withincreased communication capability of a communication apparatus havingat least a first subscriber identity card with a first address andcamping on a first cell belonging to a first wireless network and asecond subscriber identity card with a second address and camping on asecond cell belonging to a second wireless network, comprising:receiving a communication request requesting for establishing wirelesscommunication between the first subscriber identity card and a peercommunication entity; and activating a service instructing the secondwireless network to transfer a future apparatus terminated communicationrequest of the second subscriber identity card to the first subscriberidentity card via the first cell.
 10. The method as claimed in claim 9,further comprising: transmitting a transfer request to the second cellto request the second wireless network to transfer the future apparatusterminated communication request of the second subscriber identity cardto the first subscriber identity card via the first cell.
 11. The methodas claimed in claim 10, wherein the communication request is anapparatus originated communication request and the transfer request istransmitted before a channel request message requesting a communicationchannel for the apparatus originated communication request istransmitted to the first wireless network.
 12. The method as claimed inclaim 11, further comprising: deactivating or erasing the service afterthe wireless communication for the received apparatus originatedcommunication request is terminated.
 13. The method as claimed in claim10, wherein the communication request is an apparatus terminatedcommunication request and the transfer request is transmitted before apaging response message acknowledging the received communication requestis transmitted to the first wireless network.
 14. The method as claimedin claim 13, further comprising: deactivating or erasing the serviceafter the wireless communication for the received apparatus terminatedcommunication request is terminated.
 15. The method as claimed in claim9, further comprising: transmitting a transfer request to request to thesecond wireless network to activate a call forwarding relatedsupplementary service so as to forward the future apparatus terminatedcommunication request of the second subscriber identity card to thefirst subscriber identity card.
 16. The method as claimed in claim 15,wherein the call forwarding related supplementary service is one of acall forwarding unconditional (CFU) service and a call forwarding onmobile subscriber not reachable (CFNRc) service.
 17. A communicationapparatus having a first radio transceiver module, a second radiotransceiver module, a battery, a first subscriber identity card with afirst address and a second subscriber identity card with a secondaddress, wherein the battery provides power to the first radiotransceiver module and the second radio transceiver module, the firstsubscriber identity card camps on a first cell belonging to a firstwireless network via the first radio transceiver module, and the secondsubscriber identity card camps on a second cell belonging to a secondwireless network via the second radio transceiver module, thecommunication apparatus comprises: first processor logic coupled to thebattery, monitoring an amount of remaining power of the battery; secondprocessor logic coupled to the first subscriber identity card and thesecond subscriber identity card, activating a service instructing thesecond wireless networks to transfer a future apparatus terminatedcommunication request of the second subscriber identity card to thefirst subscriber identity card via the first cell; and third processorlogic coupled to the first radio transceiver module and the second radiotransceiver module, turning off the second radio transceiver moduleafter determining a power low condition according to the amount ofremaining power.
 18. The communication apparatus as claimed in claim 17,wherein the second processor logic transmits a transfer request to thesecond cell to request the second wireless network to transfer thefuture apparatus terminated communication requests of the secondsubscriber identity card to the first subscriber identity card via thefirst cell after determining the amount of remaining power is less thana predetermined threshold.
 19. The communication apparatus as claimed inclaim 18, wherein the third processor logic turns off the second radiotransceiver module after receiving a response message from the secondwireless network indicating acceptance of the transfer request.
 20. Thecommunication apparatus as claimed in claim 19, further comprisingfourth processor logic deactivating or erasing the service afterdetermining the low battery condition has subsided.
 21. A method forhandling apparatus terminated or originated communication requests withincreased communication capability of a communication apparatus havingat least a first radio transceiver module, a second radio transceivermodule, a battery, a first subscriber identity card with a first addressand camping on a first cell belonging to a first wireless network viathe first radio transceiver module and a second subscriber identity cardwith a second address and camping on a second cell belonging to a secondwireless network via the second radio transceiver module, comprising:monitoring an amount of remaining power of the battery; activating aservice instructing the second wireless networks to transfer a futureapparatus terminated communication request of the second subscriberidentity card to the first subscriber identity card via the first cell;and turning off the second radio transceiver module after determining apower low condition according to the amount of remaining power.
 22. Themethod as claimed in claim 21, further comprising: transmitting atransfer request to the second cell to request the second wirelessnetwork to transfer the future apparatus terminated communicationrequests of the second subscriber identity card to the first subscriberidentity card via the first cell after determining the amount ofremaining power is less than a predetermined threshold.
 23. The methodas claimed in claim 22, further comprising: turning off the second radiotransceiver module after receiving a response message from the secondwireless network indicating acceptance of the transfer request.
 24. Themethod as claimed in claim 23, further comprising: deactivating orerasing the service after determining the low battery condition hassubsided.
 25. A communication apparatus having a radio transceivermodule, a battery, a first subscriber identity card with a first addressand a second subscriber identity card with a second address, wherein thebattery provides power to the radio transceiver module, the firstsubscriber identity card camps on a first cell belonging to a firstwireless network via the radio transceiver module, and the secondsubscriber identity card camps on a second cell belonging to a secondwireless network via the radio transceiver module, the communicationapparatus comprises: first processor logic coupled to the battery,monitoring an amount of remaining power of the battery; second processorlogic coupled to the first subscriber identity card and the secondsubscriber identity card, activating a service instructing the secondwireless networks to transfer a future apparatus terminatedcommunication request of the second subscriber identity card to thefirst subscriber identity card via the first cell; and third processorlogic coupled to the radio transceiver module, instructing the radiotransceiver module not to listen to the second cell after determining apower low condition according to the amount of remaining power.
 26. Thecommunication apparatus as claimed in claim 25, wherein the thirdprocessor logic instructs the radio transceiver module not to listen tothe second cell after receiving a response message from the secondwireless network indicating acceptance of the transfer request.
 27. Amethod for handling apparatus terminated or originated communicationrequests with increased communication capability of a communicationapparatus having at least a radio transceiver module, a battery, a firstsubscriber identity card with a first address and camping on a firstcell belonging to a first wireless network via the radio transceivermodule and a second subscriber identity card with a second address andcamping on a second cell belonging to a second wireless network via theradio transceiver module, comprising: monitoring an amount of remainingpower of the battery; activating a service instructing the secondwireless networks to transfer a future apparatus terminatedcommunication request of the second subscriber identity card to thefirst subscriber identity card via the first cell; and instructing theradio transceiver module not to listen to the second cell afterdetermining a power low condition according to the amount of remainingpower.
 28. The method as claimed in claim 27, further comprising:instructing the radio transceiver module not to listen to the secondcell after receiving a response message from the second wireless networkindicating acceptance of the transfer request.